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Found 11 resources:
Making Cladograms
Grade Level(s):
- 9-12
Source:
- ENSI
Resource type:
- Classroom activity
Time: One class period
Overview
This lesson introduces students to the building of cladograms as evolutionary trees, showing how shared derived characters can be used to reveal degrees of relationship.
Phylogenetic systematics, a.k.a. evolutionary trees
Grade Level(s):
- 13-16
Source:
- UC Museum of Paleontology
Resource type:
- Tutorial
Time: 20 minutes
Overview
Learn about phylogenetic systematics, the study of the evolutionary relationships among organisms, and how the field is shaping biological research today.
The Evolution of Flight in Birds
Grade Level(s):
- 9-12
Source:
- UC Museum of Paleontology
Resource type:
- Online activity or lab
Overview
This interactive module examines evidence from the fossil record, behavior, biomechanics and cladistic analysis to interpret the sequence of events that led to flight in the dinosaur lineage.
Island biogeography and evolution: Solving a phylogenetic puzzle using molecular genetics
Grade Level(s):
- 9-12
- 13-16
Source:
- Filson, R.P.
Resource type:
- Lab activity
Time: Two full class periods
Overview
Students focus on the evolution of three species of lizards using real data sets — geographical and geological data, then morphology, and finally molecular data — to determine possible phylogenetic explanations.
Using trees to understand plants: The work of Chelsea Specht
Grade Level(s):
- 9-12
- 13-16
Source:
- UC Museum of Paleontology
Resource type:
- Research profile
Time: 30 minutes
Overview
This research profile follows scientist Chelsea Specht as she pieces together the evolutionary history of tropical plants and their pollinators--and in the process, tries to figure out how to conserve endangered species.
Evo in the news: The new shrew that’s not
Grade Level(s):
- 9-12
- 13-16
Source:
- UC Museum of Paleontology
Resource type:
- Evo in the News article
Time: 20 minutes
Overview
This news brief from March of 2008 describes scientists' discovery of a new mammal species, a giant elephant shrew. Though elephant shrews resemble regular shrews, recent genetic evidence suggests that elephant shrews actually sprang from a much older (and perhaps more charismatic) branch of the tree of life - the one belonging to elephants and their relatives.
Evo in the news: The legless lizards of LAX
Grade Level(s):
- 9-12
- 13-16
Source:
- UC Museum of Paleontology
Resource type:
- Evo in the News article
Time: 20 minutes
Overview
This news brief from October 2013 describes the discovery of four new species of legless lizard. Why don't we just call these animals snakes? Because of their evolutionary history...
Classification and Evolution
Grade Level(s):
- 9-12
- 13-16
Source:
- Gendron, Robert
Resource type:
- Lab activity
Time: Two class periods.
Overview
Students construct an evolutionary tree of imaginary animals (Caminalcules) to illustrate how modern classification schemes attempt to reflect evolutionary history.
An Antipodal Mystery
Grade Level(s):
- 9-12
- 13-16
Source:
- Herreid, Clyde Freeman
Resource type:
- Classroom activity
Time: 1 to 2 hours, ideally split over multiple class periods
Overview
The discovery of the platypus had the scientific world in an uproar with its mammal-like and bird-like features. How was one to classify the platypus? This case study uses this issue to model the scientific process, with scientists arguing, debating, collecting more evidence, and revising their opinions as new data become available.
What did T. Rex Taste Like?
Grade Level(s):
- 6-8
- 9-12
Source:
- UC Museum of Paleontology
Resource type:
- Online activity or lab
Time: 2-4 hours
Overview
In this web-based module students are introduced to cladistics, which organizes living things by common ancestry and evolutionary relationships.
A name by any other tree
Grade Level(s):
- 6-8
- 9-12
- 13-16
Source:
- Evolution: Education and Outreach
Resource type:
- Article
Time: 35 minutes
Overview
Phylogenetics has affected almost every area of biology - even the most basic one: how we classify organisms. Find out how phylogenetic classification works and what its advantages are.
This article appears at SpringerLink.